DE50085C - Rotary motor - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

CLASS 14: Steam Engines.

OTTO KOHN in VIENNA. Rotary motor.

Patented in the German Empire on July 22, 1888.

The motor should either be used as a rotating motor, especially for high speed, or as a Pump serve, both with almost complete avoidance of the harmful spaces in the Working cylinders.

The motor consists of a cylinder pin C, which is fastened on one side to a wall of the housing G enclosing the motor, and through which the inflow channel E from the outside and to the interior of the. Housing the outflow channel A leads.

To the Cylinderzapfen is as one piece S is a set of several, at least two Arbeitscylindern (in Fig ι. And 2 of which eight are) mounted rotatably and this piece S on the pin C as well as possible sealed, to which Behufe the pin C made conically is and the cylinder set 5 is pressed against it in the manner described later and its lifting is prevented.

The pistons K , which can be displaced in the working cylinders of the cylinder set S, are connected by means of rods L, each of which has two joints (at both ends), to the corresponding pin Z of a flywheel R , the axis of rotation χ of which is parallel to the axis of the cylinder pin jr, but around half d of the desired piston stroke is stored shifted two d against that. So that the cylinder set S participates in the rotation of the flywheel R in a perfectly precise manner, ie with always the same angular velocity, so that furthermore the weight of the cylinder set does not load on the cylinder journal C , but rather on the flywheel R or.

will received by the storage, both the Schwungrade as to the Cylindersatze at equal distances from the respective axes of rotation driving pin M are mounted, of which those of the one group are coupled to the associated at the second mitrotirenden group by connecting rods V. The length of these connecting rods from center to center of the eye is equal to the distance d between the geometrical axes of the two rotating groups.

The fact that the openings e and α made in the cylinder bottoms alternately communicate with the bores E and A made in the cylinder pin and connected to the inflow and outflow during each revolution , combined with the fact that the piston K due to the eccentricity of both axes of rotation During each revolution in the cylinders up and down, either a rotary motion of the machine occurs when the inflow E delivers a gas, vapor or liquid with overpressure against the outflow A , or a correct piston pump action when the machine is rotated by external influence becomes, in which latter case one of the bores in the cylinder pin becomes the suction pipe and the other becomes the pressure pipe. Inflow and outflow can also be assumed to be interchanged with the arrangements shown in the accompanying drawing.

In order to almost completely avoid the harmful spaces, the against rotation secured piston lugs, as shown in Fig. i, 2, 3, 6 and 7, attached,

which fit into the inflow and outflow openings e and α of the cylinder bottoms.

In the compound arrangement shown in Fig. Ι and 2, the outflow of the high pressure cylinders 1 to 4 takes place through the overflow channel U mounted in the cylinder pin into the associated, ie into the low pressure cylinders I to IV offset by 180 °, so that cylinders 1 with III, 2 with IV, 3 work together with I and 4 with II.

Likewise, a triple expansion machine is achieved by adding a third set of even larger cylinders to the same piece S and by means of a second overflow channel between the medium-pressure and low-pressure cylinders; on the other hand, when using a single series of steam cylinders of equal size arranged in a circle, the simple high-pressure machine will arise, as is shown in FIGS. 6 and 7.

The outflow from the largest cylinders through the open cylinder journal end A is diverted from the interior of the housing at a suitable point at W.

The reversal of the motor is achieved by rotating a reversing bushing D which is pushed as tightly as possible onto the cylinder journal through a corresponding angle, which is illustrated by the journal cross sections shown in FIGS. In these, λ denotes the edge determining the start of the pre-inflow, ε that for expansion, α for outflow and γ for compression. The four consecutive pin cross-sections (Fig. 3) represent inflow and outflow of the high pressure cylinder, inflow and outflow of the low pressure cylinder in sequence. In the associated FIG. 4, the reversing sleeve D is shown rotated relative to FIG. 3; as can be seen, this results in its effect, namely the reversal of the earlier sense of rotation.

Causes the expansion change of the engine into the Einströmungsbohrung E of Cylinderzapfens C bearing expansion slide F. The inflow opening is in fact provided on the surface of Cylinderzapfens with grid-like webs (Fig. 2, 3, He, and Fig. 4, he), which is parallel to Run the spigot axis. By turning the expansion slide (by hand or regulator), more or less of these grid gaps are accessible to the inflowing liquid and the filling of all high-pressure cylinders, thus also the total filling, is increased or decreased. In order to be able to give high pressure to the low-pressure cylinders, the auxiliary valve N is attached between the bores E and U in the cylinder pin C (FIG. 1).

The spring mechanism f _x mounted in the drilled out flywheel axis χ in conjunction with a spring f ₂ inserted in the stuffing box, which forces are generated by tightening the stuffing box, is used to continuously press the cylinder set 5 and the reversing sleeve D onto the cylinder journal C, even after wear and tear B occurring pressure is added.

The lubrication takes place mainly from two points: 1. as centrifugal lubrication through the drilled axis from the central lubrication vase O , 2. from an oil pump into an oil bore opening on the surface of the cylinder pin.

If necessary, the outer fixed housing is omitted (Fig. 6 and 7) and, if the exhaust is not allowed to go outside, a housing g attached to the flywheel is added, which through the stuffing box JB on the with a centric to the flywheel attachment H provided cylinder pin is sealed '.

Claims (2)

Patent Claims: 1. In the case of a rotary motor and pump, several cylinders connected in one piece are arranged to be rotatable about a central pin C , so that the bores located on the cylinder bottoms slide on the pin jacket surface and the pistons K located in the cylinders move out into the relevant cylinder during each revolution. and are pushed in after they are connected by guide rods to a flywheel R mounted eccentrically to the cylinder pin C. 2. For the motor and pump marked under 1.: a) the central pin C is provided with an inflow and an outflow channel; b) the joints attached to both the flywheel and the cylinder set at equal distances from the respective axes of rotation, of which those of one body are connected to the corresponding ones of the other by coupling rods V , the length of which from center to center joint is equal to the distance of both axes of rotation in the way described above. For this purpose ι sheet of drawings.